Hostname: page-component-7c8c6479df-995ml Total loading time: 0 Render date: 2024-03-18T12:18:23.167Z Has data issue: false hasContentIssue false

Socioeconomic gradients and mental health: implications for public health

Published online by Cambridge University Press:  02 January 2018

Sarah Stewart-Brown*
Affiliation:
Division of Health Sciences, Warwick Medical School, University of Warwick, Coventry
Preshila Chandimali Samaraweera
Affiliation:
Division of Health Sciences, Warwick Medical School, University of Warwick, Coventry and Ministry of Health in Sri Lanka
Frances Taggart
Affiliation:
Division of Health Sciences, Warwick Medical School, University of Warwick, Coventry, UK
Ngianga-Bakwin Kandala
Affiliation:
Division of Health Sciences, Warwick Medical School, University of Warwick, Coventry, UK
Saverio Stranges
Affiliation:
Division of Health Sciences, Warwick Medical School, University of Warwick, Coventry, UK
*
Sarah Stewart-Brown, Warwick Medical School, University of Warwick, Gibbet Hill Campus Coventry CV4 7AL, UK. Email: sarah.stewart-brown@warwick.ac.uk
Rights & Permissions [Opens in a new window]

Abstract

Background

Research on mental well-being is relatively new and studies of its determinants are rare.

Aims

To investigate whether the socioeconomic correlates of mental well-being mirror those for mental illness.

Method

Using logistic regression analyses, the independent odds ratios of high and low mental well-being, compared with middle-range mental well-being, were estimated for a number of sociodemographic variables known to be associated with mental illness from 13 983 participants in the 2010 and 2011 Health Surveys for England.

Results

Independent odds ratios for low mental well-being were as expected from studies of mental illness with increased odds for the unemployed (OR = 1.46, 95% CI 1.01–2.10) and those aged 35–54 years (OR = 1.58, 95% CI 1.35–1.84) and reduced odds for the married (OR = 0.78, 95% CI 0.62–0.97). A linear trend was observed with education and equivalised income. Odds ratios for high mental well-being differed from those for low mental well-being with regard to age (55+ years: OR = 1.48, 95% CI 1.23–1.79); employment status where there was an association only with retirement (OR = 1.35, 95% CI 1.09–1.69); education where there was no association; and equivalised income for which the association was non-linear.

Conclusions

Odds ratios for low mental well-being mirrored those for mental illness, but not those for high mental well-being, suggesting that the socioeconomic factors associated with positive mental health are different from those associated with mental illness.

Type
Papers
Copyright
Copyright © Royal College of Psychiatrists, 2015 

The case for the promotion of positive mental health or mental well-being has been made convincingly on both health Reference Huppert1 and economic grounds Reference Jenkins, Meltzer, Jones, Brugha, Bebbington and Farrell2 and, as a consequence, mental well-being now assumes an important place in mental health and public health policy. 35 Key features of mental well-being are that it creates resilience to both mental and physical illness, increases longevity in general populations, Reference Chida and Steptoe6 increases educational achievement and enhances performance in the workplace. Reference Huppert1 The World Health Organization (WHO) describes mental well-being as a state in which the individual realises his or her own abilities, copes with the normal stresses of life, works productively and makes a contribution to his or her community. 7 Mental well-being is widely recognised as extending beyond the absence of mental illness and comprising both affective components (emotions/feelings) and psychological functioning. Reference Huppert1 Arguments have been advanced that mental well-being and mental illness may represent two different but correlated continua. In this case mental well-being can be positive or negative and low mental well-being is not synonymous with mental illness. For clarity we have referred in this paper to low and high mental well-being and to mental illness and positive mental health, which we regard as synonymous with high mental well-being. Effective public health practice demands a sound understanding of the determinants not only of illness but also of positive states of health. Whereas mental illness is distributed according to familiar social gradients Reference McManus, Brugha, Meltzer, Bebbington and Jenkins8,Reference Fryers, Melzer, Jenkins and Brugha9 with a high prevalence among deprived groups and those living in poverty, less is known about the social determinants of positive mental health. There is some indication that the distribution is different from that for mental illness. Reference Huppert1 The Health Survey for England (HSE) Reference Mindell, Biddulph, Hirani, Stamatakis, Craig and Nunn10 collected data on mental well-being in 2010 and 2011, making it possible to assess socioeconomic gradients of high and low mental well-being in a large representative sample of the English population and to test the hypothesis that these gradients are different from those observed for mental illness.

Method

Study population

The HSE is an annual survey of a nationally representative population that samples adults and children in households at private residential addresses. Reference Mindell, Biddulph, Hirani, Stamatakis, Craig and Nunn10 In both 2010 and 2011, 66% of households agreed to participate providing samples of 14 112 (8420 age 16+ years) and 10 617 (8610 age16+ years), respectively. Detailed information was collected on mental and physical health in relation to demographic and socioeconomic characteristics of adults and children. Regarding, ethical approval as the study design was of secondary data analysis using data collected in the HSE; permission to use the data was granted by the UK Data Service.

Mental well-being

The Warwick-Edinburgh Mental Well-being Scale (WEMWBS) Reference Tennant, Hiller, Fishwick, Platt, Joseph and Weich11 was administered in English only to respondents over 16 years of age, a total of 17 030 people across both years. The WEMWBS is a well validated, popular measure currently used to monitor mental well-being in the English public health outcomes framework 12 and the Scottish Government’s Mental Health Indicators data-set. 13 It has been validated in a number of different cultural and linguistic settings including English-speaking minority ethnic groups in the UK. Reference Taggart, Friede, Weich, Clarke, Johnson and Stewart-Brown14,Reference Forero, Adroher, Stewart-Brown, Castellví, Codony and Vilagut15 Valid responses were available for 13 983 (82.1%) of adult (16+ years) respondents for the combined 2010 and 2011 data-sets. (See online Table DS1 for comparison of respondents and non-respondents). These were used to define three population groups: more than one standard deviation from the mean in either direction (top 15th centile: WEMWBS score 60–70; and bottom 15th centile: WEMWBS score 14–42) and the remainder (16–84th percentile: WEMWBS score 43–59). Valid responses were those in which all items in the scale had been completed. In the first series of models, odds ratios (ORs) were generated for the low well-being group compared with the middle-range group and in the second series for the high well-being group compared with the middle-range group.

Sociodemographic correlates

Sociodemographic variables known to be relevant to inequalities in mental illness and available in the HSE data-sets were included. These were: age (16–34, 35–54, 55+); gender; ethnicity (White, Indian and Pakistani (including mixed race), African-Caribbean and African (including mix race), Chinese and other Asian, and other); religion (none, Christian, Muslim, other); economic status (employed, unemployed seeking work, retired, economically inactive); marital status (single, married/civil partnership/cohabitee, divorced/separated/widowed); educational attainment (NVQ4/NVQ5/degree or equivalent, secondary education to, NVQ3/GCE A-level equivalent, NVQ2/GCE O-level equivalent, NVQ1/CSE other grade equivalent, no qualification) and equivalised household income in quintiles. 16 In order to maximise sample size and avoid bias, missing values were included for all covariates.

Statistical analysis

We used χ2-tests to determine the statistical significance of any difference in the distributions of the selected sociodemographic variables across categories of WEMWBS scores (low, middle, high) (online Table DS2). Data were analysed in logistic regression models in order to identify differences in the pattern of association of sociodemographic variables with high and low mental well-being. Unadjusted (Model 1), partially adjusted (age and gender) (Model 2) and fully adjusted (all variables) (Model 3) models were generated to calculate odds ratios of low mental well-being compared with middle-range (see Table 1 for the fully adjusted model and online Table DS3 for details of all three models), and high mental well-being compared with middle-range (see Table 2 for the fully adjusted model and online Table DS4 for details of all three models), using SPSS 21 for Windows for different levels of socioeconomic variables. The significance of linear trends and gender differences in the associations of low and high mental well-being were assessed for each of the correlates, the latter using tests for interaction (see online Tables DS5 and DS6, respectively).

Table 1 Fully adjusted (Model 3) odds ratios for low mental well-being referenced to middle-range mental well-beingFootnote a

Fully adjusted OR
(95% CI)
Age, years
 16–34 Ref
 35–54 1.58 (1.35–1.84)
 55+ 0.96 (0.77–1.18)
Gender
 Male Ref
 Female 1.04 (0.68–1.58)
Marital status
 Single Ref
 Married/civil partnership/cohabitees 0.78 (0.62–0.97)
 Separated/divorced/widowed 1.24 (0.92–1.68)
EducationFootnote b
 NVQ4/NVQ5/degree or equivalent Ref
 Higher education below degree 1.03 (0.76–1.41)
 NVQ3/GCE A-Level equivalent 1.28 (0.96–1.72)
 NVQ2/GCE O-Level 1.35 (1.03–1.77)
 NVQ1/CSE other grade equivalent 1.47 (0.99–2.19)
 No qualification 2.00 (1.50–2.68)
Equivalised incomeFootnote b
 Highest (>£47 794.12) Ref
 Second highest (>£27 704.92 to ≤£47 794.12) 0.92 (0.70–1.22)
 Middle (>£19 117.65 to ≤£27 704.92) 1.24 (0.94–1.63)
 Second lowest (>£11 676.65 to ≤19 117.65) 1.40 (1.05–1.87)
 Lowest (≤£11 676.65) 1.19 (0.79–1.78)
Employment
 In employment Ref
 Unemployed seeking work 1.46 (1.01–2.10)
 Retired 1.11 (0.85–1.47)
 Other economically inactive 2.89 (2.21–3.78)
Religion
 No religion Ref
 Christian and other denominators 1.02 (0.85–1.24)
 Muslims 0.67 (0.30–1.53)
 Any other 0.71 (0.39–1.30)
Ethnicity
 White Ref
 Indian and Pakistani 0.73 (0.35–1.53)
 African–Caribbean 0.36 (0.19–0.66)
 Chinese and other Asian 0.77 (0.33–1.82)
 Other 0.71 (0.27–1.87)

a. The univariate (Model 1) and partially adjusted (age and gender) (Model 2) odds ratios can be found in online Table DS3. Low mental well-being defined as a Warwick–Edinburgh Mental Well-being Scale (WEMWBS) score of 14–42 and middle-range mental well-being as a WEMWBS score of 43–59. The fully adjusted model included: age, gender, marital status, education, equivalised income, employment, religion and ethnic origin.

b. P-value for linear trend: 0.001.

Table 2 Fully adjusted (Model 3) odds ratios for high mental well-being referenced to middle-range mental well-beingFootnote a

Fully adjusted OR
(95% CI)
Age, yearsFootnote b
 16–34 Ref
 35–54 0.96 (0.82–1.12)
 55+ 1.48 (1.23–1.79)
Gender
 Male Ref
 Female 0.95 (0.64–1.41)
Marital status
 Single Ref
 Married/civil partnership/cohabitees 1.01 (0.80–1.28)
 Separated/divorced/widowed 0.98 (0.71–1.36)
Education
 NVQ4/NVQ5/degree or equivalent Ref
 Higher education below degree 1.01 (0.78–1.30)
 NVQ3/GCE A-level equivalent 1.04 (0.81–1.34)
 NVQ2/GCE O-level 1.00 (0.78–1.27)
 NVQ1/CSE other grade equivalent 1.26 (0.88–1.81)
 No qualification 0.97 (0.74–1.26)
Equivalised income
 Highest (>£47 794.12) Ref
 Second highest (>£27 704.92 to ≤£47 794.12) 0.80 (0.64–0.99)
 Middle (>£19 117.65 to ≤£27 704.92) 0.78 (0.62–0.99)
 Second lowest (>£11 676.65 to ≤19 117.65) 0.71 (0.55–0.93)
 Lowest (≤£11 676.65) 0.79 (0.58–1.07)
Employment
 In employment Ref
 Unemployed seeking work 1.34 (0.92–1.95)
 Retired 1.35 (1.09–1.69)
 Other economically inactive 1.05 (0.74–1.74)
Religion
 No religion Ref
 Christian and other denominators 1.12 (0.94–1.35)
 Muslims 1.15 (0.64–2.05)
 Any other 1.00 (0.61–1.64)
Ethnicity
 White Ref
 Indian and Pakistani 2.08 (1.23–3.54)
 African–Caribbean 2.24 (1.61–3.12)
 Chinese and other Asian 1.61 (0.85–3.05)
 Other 1.60 (0.78–3.29)

a. The univariate (Model 1) and partially adjusted (age and gender) (Model 2) odds ratios can be found in online Table DS4. High mental well-being is defined as a Warwick–Edinburgh Mental Well-being Scale (WEMWBS) score of 60–90 and middle-range mental well-being as a WEMWBS score of 43–59. The fully adjusted model included: age, gender, marital status, education, equivalised income, employment, religion and ethnic origin.

b. P-value for linear trend <0.001.

Results

Significant differences were found for all characteristics of study participants with and without complete data except for gender (online Table DS1). Respondents were more likely to be young, married/cohabiting, employed, White, with higher levels of education, higher incomes and either no religion or Christian. In descriptive analyses, significant associations were evident by age, marital status, education, household income, religion, employment and ethnicity across the three categories of mental well-being (online Table DS2).

In the fully adjusted models for low mental well-being compared with middle-range (Table 1), middle age (35–54 years) was associated with an increased odds ratio (OR = 1.58, 95% CI 1.35–1.84), whereas marriage/cohabitee status was associated with a reduced odds (OR = 0.78, 95% CI 0.62–0.97). Education showed the expected dose-response relationships (P-value for linear trend <0.001) with significantly increased odds of low mental well-being among those with GCE O levels (OR = 1.35, 95% CI 1.03–.77) and those with no qualifications (OR = 2.00, 95% CI 1.50–2.68) compared with those with a degree. Low mental well-being was linearly associated with equivalised income (P<0.001) with increased odds for those in the second lowest income bracket (OR = 1.40, 95% CI 1.05–1.87) compared with the highest. Unemployment, both in those seeking work (OR = 1.46, 95% CI 1.01–2.10) and those inactive for other reasons (OR = 2.89, 95% CI 2.21–3.78), increased the odds of low mental well-being. The African and African-Caribbean group was protected from low mental well-being (OR = 0.36, 95% CI 0.19–0.66). There were no associations with religion or gender.

In the fully adjusted models for high mental well-being compared with middle-range (Table 2) both older age (55+ years) (OR = 1.48, 95% CI 1.23–1.79) and being retired (OR = 1.35, 95% CI 1.09–1.69) were independently associated with an increased odds. Odds of high mental well-being did not differ among other categories of employed and unemployed. Education was not associated with high mental well-being. With reference to the highest income quintile, all other quintiles of equivalised income showed similarly reduced odds of high mental well-being (OR = 0.80, 95% CI 0.64–0.99 to OR = 0.71, 95% CI 0.55–0.93); there was no significant trend across categories of income; the lowest group had an odds ratio in the same range as the other groups (OR = 0.79, 95% CI 0.58–1.07). Both Indian and Pakistani (OR = 2.08, 95% CI 1.23–3.54), and African and African-Caribbean groups (OR = 2.24, 95% 1.61–3.12) showed an increased odds of high mental well-being. High mental well-being did not differ by marital status or gender.

Gender-stratified analysis were consistent between men and women for low mental well-being with the exception of education, which was more strongly associated with low mental well-being among women than men, and unemployment, which was not associated with low mental well-being in women (online Table DS5). For high mental well-being, results were consistent between men and women with the exception of retired men and ‘other economically inactive’ women who had increased odds. Increased odds of high mental well-being among African/African-Caribbean, Indian and Pakistani populations were attributable to increased odds among men (online Table DS6).

Discussion

Main findings

These analyses have enabled the comparison of the social and economic correlates of low and high mental well-being in a large, representative sample of the adult English population and show that they do not mirror one another. The results show that the correlates of high mental well-being are different from those of low mental well-being but that the latter closely mirror the correlates of mental illness. Assumptions about socioeconomic determinants made in planning public mental health programmes focusing on the prevention of mental illness may therefore not be applicable to programmes aiming to increase mental well-being.

Measuring mental well-being

The WEMWBS is used in clinical populations Reference Crawford, Robotham, Thana, Patterson, Weaver and Barber17 but is not clinically validated as a measure of mental illness. We have referred to low mental well-being throughout because of this and also in recognition of the debate regarding the relationship between mental well-being and mental illness. Studies based on diagnostic categories of mental illness have shown only moderate correlation (around 0.5) between mental illness and measures of mental well-being Reference Weich, Brugha, King, McManus, Bebbington and Jenkins18 consistent with the philosophical position of the ‘dual continuum model’. Reference Huppert and Whittington19 Studies based on continuous, clinically validated measures of mental illness however, show a much stronger correlation. For example there is a high inverse correlation between WEMWBS scores and scores on the Center for Epidemiologic Studies Depression Scale (CES-D), a clinically valid measure of depression, widely used in population-based studies. Reference Radloff20 The latter study examined cut points on the WEMWBS that corresponded to cut points on the CES-D. A WEMWBS score of 42, which defined the cut point for the low mental well-being group in this study, is below (clinically worse) than a CES-D score of 16 and just above (clinically better) than that consistent with a CES-D score of 26, Reference Bianca21 both cut points which have been used to define clinical populations of varying levels of severity. The bottom 15% of the WEMWBS distribution – the low mental well-being population in the current study – thus comprised people who were very likely to have scored in the clinical range on self-report measures of common mental disorders and is consistent with estimates of clinically relevant levels of mental illness in the UK population. Reference McManus, Brugha, Meltzer, Bebbington and Jenkins8,Reference Singleton, Bumpstead, O'Brien, Lee and Meltzer22 The odds of low mental well-being associated with the socioeconomic factors described in this study also correspond closely to those measured in studies using clinically valid measures of mental illness, Reference Fryers, Melzer, Jenkins and Brugha9 further supporting the view that we have compared the odds for a population very likely to have mental illness with the odds for a population with high mental well-being or positive mental health.

Significance of our findings and comparison with previous studies

Our findings suggest that socioeconomic factors relate to mental well-being in a way that is not consistent with the way they relate to mental illness. The differences are most striking with regard to education and employment where, although we found the correlation with low mental well-being that we expected from studies of mental illness, there was no discernible correlation with high mental well-being, at least for those who were pre-retirement in the employment analyses. If education and employment are key drivers of mental health in general, we would expect to see them correlating as a mirror image with both ends of the mental health spectrum. In a recent analysis of the correlates of well-being, undertaken by the Office of National Statistics and based on their four proxy measures of mental well-being, Reference Oguz, Merad and Snape23 people with the highest levels of educational attainment were found to have higher ratings of anxiety than people with lower educational attainment. People in higher managerial and professional occupations also showed higher scores for anxiety than those in lower supervisory and technical occupations. Another recent analysis Reference McManus, Chanfreau and Lloyd24 of cross-sectional studies looking at predictors of mental well-being as measured by the WEMWBS and the short version (SWEMWBS Reference Stewart-Brown, Tennant, Tennant, Platt, Parkinson and Weich25 ) found both employment and education to be significant correlates, but the association with education was non-linear. The latter study was based on linear regression analyses and the findings will therefore have been weighted by the relationship between low mental well-being and education and employment.

Our findings relating to income and high mental well-being are also strikingly different from the linear trend expected from analyses relating to mental illness. The highest quintile income group had better odds of high mental well-being than the other four income groups, but there was nothing to distinguish the latter four groups from one another. It is important to note that the starting point for the highest quintile income bracket was £47 794, which does not denote great wealth. Other investigators Reference Dolan, Peasgood and White26 using linear regression analyses have in general found an association between income and happiness and life satisfaction, both used as proxy measure of mental well-being in economic analyses, that was more evident in the least wealthy groups. In the recent Office of National Statistics analysis based on their four proxy measures Reference Oguz, Merad and Snape23 increased earnings were associated with higher levels of life satisfaction, but not with a sense that life was worthwhile, or with happiness. Another analysis of predictors of well-being found that being unsatisfied with personal income was predictive of low mental well-being but less so than being unsatisfied with leisure time. Reference McManus, Chanfreau and Lloyd24 Mental well-being is more than life satisfaction or happiness. It may be that the latter affective and more transitory components of well-being are influenced by income, whereas the more stable developmental components of mental well-being relating to functioning are not.

Perhaps the most surprising finding, given the well-recognised association between ethnicity and detention under the Mental Health Act Reference Singh, Burnsa, Tyrera, Islama, Parsons and Crawford27 and the more general association between mental illness and ethnicity, Reference Oguz, Merad and Snape23 is the substantially increased odds of high mental well-being among minority ethnic groups, particularly African and African-Caribbean, Indian and Pakistani, and the reduced odds of low mental well-being among African and African-Caribbean groups. The findings relating to African and African-Caribbean populations and mental well-being were also evident in another recent analysis where it was shown, as it was in this study, to be primarily because of high levels in Black men. Reference McManus, Chanfreau and Lloyd24 These findings are not incompatible with the existing literature. It is possible that minority ethnic populations experience both more severe mental illness of the sort that warrants detention under the Mental Health Act and at the same time more positive mental health than White populations. The WEMWBS has been validated in English-speaking Chinese and Pakistani groups Reference Taggart, Friede, Weich, Clarke, Johnson and Stewart-Brown14 and shown to be reliable and acceptable, but has not yet been specifically validated in African/African-Caribbean populations. This study included only English-speaking populations and findings among those who do not speak English could have been different. The possibility of reporting biases in this self-report measure of mental well-being also needs to be addressed. However, if our findings relating to minority ethnic groups prove robust they are of great interest. Strong arguments are often made on the grounds of social deprivation that health-promoting interventions should specifically target ethnic minorities. When it comes to improving mental well-being, we may end up needing to learn from these population groups, spreading their knowledge and attitudes to the majority population.

Cross-sectional surveys from which these results derive can point towards possible causal inference but cannot demonstrate it. Our study population was also biased in that respondents differed from the eligible population in that they were more likely to be middle-aged, White, well-educated and relatively wealthy. We would therefore anticipate slightly lower levels of mental illness in the study population and thus arguably lower levels of, and a weaker correlation with, low mental well-being. The fact that correlations with low mental well-being were strong suggests that these biases have not greatly influenced our findings.

Although explanations for our findings must remain speculative, they are compatible with a model in which low mental well-being relates closely to mental illness and both are linearly associated with socioeconomic position through a bidirectional causal relationship – that is poor social and economic circumstances increase the risk of mental illness by increasing personal stressors, but at the same time mental illness increases the risk of poor social circumstances by interfering with social relationships, educational attainment and productivity as it is known to do. Reference Huppert1 Positive mental health might not be associated so closely with socioeconomic circumstances if causality operated in only one direction, that is positive mental health improves socioeconomic circumstances by supporting educational attainment, productivity and social relationships, but reverse causality does not apply – better social and economic circumstances do not improve positive mental health.

In conclusion, the correlates of positive mental health may be significantly different from the correlates of mental illness. Programmes addressing the social determinants of health are valuable from the point of view of preventing illness, but programmes to improve mental well-being may need to adopt new paradigms that do not rely on prevailing beliefs relating to social inequalities.

Acknowledgements

The Health Survey for England was commissioned by the Department of Health and was carried out by the Joint Health Survey Unit of National Centre for Social Research and Department of Epidemiology and Public Health at University College London. The authors would like to thank all the participants in the Health survey for England 2010 and 2011.

Footnotes

Declaration of interest

S.S.-B. developed the Warwick–Edinburgh Mental Well-being Scale, but has no financial interests in the scale.

References

1 Huppert, FA. Psychological well-being: evidence regarding its causes and consequences. Appl Psychol Health Well Being 2009; 1:137–64.Google Scholar
2 Jenkins, R, Meltzer, H, Jones, PB, Brugha, T, Bebbington, P, Farrell, M, et al. Foresight Mental Capital and Wellbeing Project. Mental health: Future challenges. The Government Office for Science, 2008 (http://www.bis.gov.uk/assets/BISCore/corporate/MigratedD/ec_group/116-08-FO_b.pdf).Google Scholar
3 HM Government. Healthy Lives Healthy People: Our strategy for Public Health in England. Department of Health, 2010 (https://www.gov.uk/government/publications/healthy-lives-healthy-people-our-strategy-for-public-health-in-england).Google Scholar
4 HM Government. No Health without Mental Health: A Cross-Governmental Mental Health Outcomes Strategy for People of All Ages. Department of Health, 2011.Google Scholar
5 HM Government. Preventing Suicide in England: One Year on. First Annual Report on the Crossgovernment Strategy to Save Lives. Department of Health, 2014.Google Scholar
6 Chida, Y, Steptoe, A. Positive psychological well-being and mortality: a quantitative review of prospective observational studies. Psychosom Med 2008; 70: 741–56.Google Scholar
7 World Health Organization. Mental Health: New Understanding, New Hope. The World Health Report. World Health Organization, 2001 Google Scholar
8 McManus, S, Brugha, T, Meltzer, H, Bebbington, P, Jenkins, R. Adult Psychiatric Morbidity in England 2007: Results of a Household Survey. Health & Social Care Information Centre, 2009 (http://www.hscic.gov.uk/pubs/psychiatricmorbidity07).Google Scholar
9 Fryers, T, Melzer, D, Jenkins, R, Brugha, T. The distribution of the common mental disorders: social inequalities in Europe. Clin Pract Epidemiol Ment Health 2005; 1: 14.Google Scholar
10 Mindell, J, Biddulph, JP, Hirani, V, Stamatakis, E, Craig, R, Nunn, S, et al. Cohort profile: the Health Survey for England. Int J Epidemiol 2012; 41: 1585–93.Google Scholar
11 Tennant, R, Hiller, L, Fishwick, R, Platt, S, Joseph, S, Weich, S, et al. The Warwick-Edinburgh mental well-being scale (WEMWBS): development and UK validation. Health Qual Life Outcomes 2007; 5: 63.Google Scholar
12 HM Government. Improving Outcomes and Supporting Transparency, Part 1B. Public health outcomes framework for England, 2013–2016 – Appendices. Department of Health, 2013 (http://www.gov.uk/government/uploads/system/uploads/attachment_data/file/263659/2901502_PHOF_Improving_Outcomes_PT1B_v1_1.pdf).Google Scholar
13 Scottish Government. National indicators – mental wellbeing (http://www.scotland.gov.uk/About/Performance/scotPerforms/indicators/wellbeing).Google Scholar
14 Taggart, F, Friede, T, Weich, S, Clarke, A, Johnson, M, Stewart-Brown, S. Cross cultural evaluation of the Warwick-Edinburgh mental well-being scale (WEMWBS) – a mixed methods study. Health Qual Life Outcomes 2013; 11: 27.Google Scholar
15 Forero, CG, Adroher, ND, Stewart-Brown, S, Castellví, P, Codony, M, Vilagut, G, et al. Differential item and test functioning methodology indicated that item response bias was not a substantial cause of country differences in mental well-being. In J Clin Epidemiol 21 Aug 2014 (doi: 10.1016/j.jclinepi.2014.06.017).Google Scholar
16 Health Survey for England. Methodology and Documentation. Data Analysis and Reporting, UK 2011. Health and Social Care Information Centre, 2012.Google Scholar
17 Crawford, MJ, Robotham, D, Thana, L, Patterson, S, Weaver, T, Barber, R, et al. Selecting outcome measures in mental health: the views of service users. J Ment Health 2011; 20: 336–46.Google Scholar
18 Weich, S, Brugha, T, King, T, McManus, S, Bebbington, P, Jenkins, R, et al. Mental well-being and mental illness: findings from the Adult Psychiatric Morbidity Survey for England 2007. Br J Psychiatry 2011; 199: 23–8Google Scholar
19 Huppert, FA, Whittington, JE. Evidence for the independence of positive and negative well-being: implications for quality of life assessment. Br J Health Psychol 2003; 8: 107–22.Google Scholar
20 Radloff, LS. The CES-D Scale. A self-report depression scale for research in the general population. Appl Psychol Meas 1977; 1: 385401.Google Scholar
21 Bianca, D. Performance of the Warwick-Edinburgh Mental Well-Being Scale (WEMWBS) as a Screening Tool for Depression in UK and Italy. Thesis for Doctorate in Psychology, Univeristy of Bologna, 2012 (http://www2.warwick.ac.uk/fac/med/research/platform/wemwbs/development/papers/donatella_bianco-thesis.pdf).Google Scholar
22 Singleton, N, Bumpstead, R, O'Brien, M, Lee, A, Meltzer, . Psychiatric Morbidity amongst Adults Living in Private Households in 2000. TSO (The Stationery Office), 2001.Google Scholar
23 Oguz, S, Merad, S, Snape, D. Measuring National Well-being – What matters Most to Personal Well-being? Office for National Statistics (May 2013) Cross Sectional Analysis of Four Questions. ONS, 2013 (http://www.ons.gov.uk/ons/rel/wellbeing/measuring-national-well-being/what-matters-most-to-personal-well-being-in-the-uk-/index.html).Google Scholar
24 McManus, S, Chanfreau, J, Lloyd, C. Predictors of Wellbeing. NatCen, 2013 (http://www.natcen.ac.uk/our-research/research/predictors-of-wellbeing).Google Scholar
25 Stewart-Brown, S, Tennant, A, Tennant, R, Platt, S, Parkinson, J, Weich, S. Internal construct validity of the Warwick-Edinburgh Mental Well-being Scale (WEMWBS): a Rasch analysis using data from the Scottish Health Education Population Survey. Health Qual Life Outcomes 2009; 7: 15.CrossRefGoogle ScholarPubMed
26 Dolan, P, Peasgood, T, White, M. Do we really know what makes us happy? A review of the economic literature on the factors associated with subjective well-being. J Econ Psychol 2008; 29: 94122.Google Scholar
27 Singh, SP, Burnsa, T, Tyrera, P, Islama, Z, Parsons, H, Crawford, MJ. Ethnicity as a predictor of detention under the Mental Health Act. Psychol Med 2013; 24: 18.Google Scholar
Figure 0

Table 1 Fully adjusted (Model 3) odds ratios for low mental well-being referenced to middle-range mental well-beinga

Figure 1

Table 2 Fully adjusted (Model 3) odds ratios for high mental well-being referenced to middle-range mental well-beinga

Supplementary material: PDF

Stewart-Brown et al. supplementary material

Supplementary Table S1-S6

Download Stewart-Brown et al. supplementary material(PDF)
PDF 176.3 KB
Submit a response

eLetters

No eLetters have been published for this article.